Preparation method of high-performance solid buoyancy material

A solid buoyancy and high-performance technology, applied in the field of materials, can solve problems such as poor impact resistance, and achieve the effects of good fluidity, good impact resistance, and good impact resistance

Pending Publication Date: 2019-07-12
皮蒙
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0006] Technical problem to be solved by the present invention: Aiming at the serious technical defects and poor impact resistance of the solid buoyant material prepared by epoxy resin, a method for preparing a high-performance solid buoyant material is provided

Method used

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  • Preparation method of high-performance solid buoyancy material

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Embodiment Construction

[0025] In parts by weight, weigh 30-50 parts of sodium silicate, 5-12 parts of 300-400 mesh alumina powder, 10-20 parts of 200-300 mesh waste glass powder, 1-5 parts of urea, 0.2-0.4 The mass fraction is 5% ferric chloride aqueous solution, 0.1 to 0.3 parts of platinum catalyst, sodium silicate, 300 to 400 mesh alumina powder, 200 to 300 mesh waste glass powder and urea, and the stirring speed is 300 to 500r Magnetic stirring at room temperature for 1-2 hours / min to obtain the mixture, sequentially add platinum catalyst and 5% ferric chloride aqueous solution to the mixture, and continue to stir for 1-2 days to obtain the precursor. Dry and granulate in the form of droplets to obtain a green body. Put the green body in an oven, raise the temperature at 2°C / min to 50-60°C and keep it warm for 6-8 hours, then raise the temperature to 80-90°C at 12°C / min Put the semi-finished product in a quartz tube furnace, heat it up to 800-850°C at a heating rate of 5-10°C / min, then inject ab...

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Abstract

The invention relates to a preparation method of a high-performance solid buoyancy material and belongs to the technical field of materials. Iron chloride is mixed in sodium silicate for crosslinkingforming and pyrolysis, pores formed in sodium silicate during pyrolysis and iron particles formed in the pores are taken as catalysts, nanofiber is grown in situ in a hollow glass microsphere matrix,the root part of the fiber is embedded in a matrix, the head extends out of the matrix, the fiber is closely and seamlessly combined with the matrix, the product is taken as filler, the high-performance solid buoyancy material is prepared, the fiber can slide in a local range of the matrix when the material is impacted by external force and broken, a toughening function is produced on the hollow glass microsphere matrix, and the prepared high-performance solid buoyancy material has good impact resistance. The high-performance solid buoyancy material is prepared with a vacuum impregnation method, equipment is simple, conditions are easy to control, the obtained high-performance solid buoyancy material has uniform quality, and hollow glass microspheres are high in filling rate and have goodthermal resistance.

Description

technical field [0001] The invention relates to a preparation method of a high-performance solid buoyancy material, belonging to the technical field of materials. Background technique [0002] The solid buoyancy material technology organically combines the low-density and high-strength properties of the material, making it incomparably superior in the field of ocean development technology. Deep diving technology is an important part of national defense security and marine resource development technology. [0003] The development and utilization of marine resources, especially deep-sea resources, occupies an important position in the development strategies of all developed countries. Deep-sea exploration technology is the key to the development and utilization of deep-sea resources, and deep-sea buoyancy materials are an important guarantee for deep-sea exploration. In order to improve the pressure resistance and structural stability of deep submersible drag bodies, deep su...

Claims

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Application Information

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IPC IPC(8): C08L63/00C08K7/28C08K7/06C08K9/12C08G59/50
CPCC08G59/5033C08K7/06C08K7/28C08K9/12C08L2201/08C08L63/00
Inventor 皮蒙
Owner 皮蒙
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